Advances in Heat Transfer
- 1 Edición, Volumen 35 - 13 de abril de 2001
- Última edición
- Editores: James P. Hartnett, Thomas F. Irvine, Young I. Cho, George A. Greene
- Idioma: Inglés
Heat transfer is the exchange of heat energy between a system and its surrounding environment, which results from a temperature difference and takes place by means of a process of… Leer más
Descripción
Descripción
Heat transfer is the exchange of heat energy between a system and its surrounding environment, which results from a temperature difference and takes place by means of a process of thermal conduction, mechanical convection, or electromagnetic radiation.
Advances in Heat Transfer is designed to fill the information gap between regularly scheduled journals and university-level textbooks by providing in-depth review articles over a broader scope than is allowable in either journals or texts.
De interès para
De interès para
Researchers and graduate students in mechanical, civil, and chemical engineering.
Índice
Índice
- Preface
- Thermal Performance Testing of Industrial Heat Exchangers
- Abstract
- I Introduction
- II Test Methods
- III Analysis of Results
- IV Uncertainty Assessment
- V Conclusions and Future Work
- Nomenclature
- Boiling Heat Transfer and Bubble Dynamics in Microgravity
- Abstract
- I Introduction
- II Compensation of Earth Gravity
- III Boiling Curve at 1-g and μ-g
- IV Realization of Experiments
- V Heat Transfer at Saturated Nucleate Boiling
- VI Heat Transfer at Subcooled Nucleate Boiling
- VII Critical Heat Flux
- VIII Film Boiling
- IX Conclusions Drawn from Microgravity Boiling
- X Bubble Growth Model
- XI Bubble and Boiling Dynamics
- XII Why Enhancement? Why Diminution?
- XIII Application of Boiling in Microgravity
- XIV Conclusions and Future Perspectives
- Acknowledgments
- Nomenclature
- Heat Transfer and Fluid Flow in Rotating Sealed Cavities
- Abstract
- I Introduction
- II Infinite Rotating Disk Flows
- III Finite Unshrouded Disk Systems
- IV Isothermal Sealed Cavities
- V Sealed Cavities with an Imposed Thermal Gradient
- VI Two-Equation Turbulence Model and Low Reynolds Number Effects
- VII Turbulence Modeling for Rotational Effects
- VIII Numerical Convergence Considerations
- IX Concluding Remarks
- Appendix Summary of Sealed Cavity Investigations
- Recent Advances in the Modeling and Applications of Nonconventional Heat Pipes
- I Introduction
- II Thermal Analysis
- III Thermodynamics and Fundamental Aspects
- IV Heat Pipe Startup from the Frozen State
- V Discrete Heat Sources at the Evaporator
- VI Heat Pipe Applications
- VII Micro Heat Pipes
- VIII Thermosyphons
- IX Capillary Pumped Loops
- X Inventions and Patents
- XI Closure
- Acknowledgment
- Nomenclature
- Author index
- Subject index
Reseñas
Reseñas
"Wholeheartedly recommended to the researcher, and to the student who wishes to commence work in a particular field."—JOURNAL OF MECHANICAL WORKING TECHNOLOGY
“Serve[s] as a broad review for experts in the field...Will also be of great interest to non-specialists with only general knowledge of the field who need to know the results of the latest research."—CURRENT SCIENCE
“Serve[s] as a broad review for experts in the field...Will also be of great interest to non-specialists with only general knowledge of the field who need to know the results of the latest research."—CURRENT SCIENCE
Detalles del producto
Detalles del producto
- Edición: 1
- Última edición
- Volumen: 35
- Publicado: 24 de abril de 2001
- Idioma: Inglés
Sobre los editores
Sobre los editores
JH
James P. Hartnett
Afiliaciones y experiencia
University of Illinois, Chicago, U.S.A.TI
Thomas F. Irvine
Afiliaciones y experiencia
State University of New York at Stonybrook, U.S.A.YC
Young I. Cho
Afiliaciones y experiencia
Drexel University, USAGG
George A. Greene
Afiliaciones y experiencia
Brookhaven National Laboratory, Upton, New York, U.S.A.Ver libro en ScienceDirect
Ver libro en ScienceDirect
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